CN103939977B - A kind of heating installation of twin-roll phase transformation radiator and drying room - Google Patents

Abstract

The invention discloses a kind of heating installation and drying room of twin-roll phase transformation radiator, wherein, heating installation comprises water circulation component and airflow circulating assembly, and wherein water circulation component comprises solar energy heating water tank, tank bracket, vacuum heat collection pipe, thermal source outlet pipe and thermal source return pipe; Described airflow circulating assembly comprises supply fan, supply fan pipeline, three-way diverter valve, exhaust fan pipeline, exhaust fan, ventilation fan pipeline and ventilation fan, also comprises rolling stand assembly, circulating pump, pipeline water knockout drum, pipeline water collector and pressure regulating pump, described rolling stand assembly comprises support and fixing phase transformation twin-roll radiator on the bracket.The heating system of twin-roll phase transformation radiator of the present invention, compared with existing household heating equipment, under identical heating condition, can using water wisely more than 85 percent, using electricity wisely more than 50 percent, has energy-conserving and environment-protective and the advantage such as pollution-free.

Description

A kind of heating installation of twin-roll phase transformation radiator and drying room

Technical field

The present invention relates to the heating of a kind of radiator, particularly relate to the application in a kind of twin-roll phase transformation radiator and simple and easy drying room.

Background technology

" ODS management rules " that the State Council of the PRC formulates are with execution from 1 day June in 2010.In order to Ozonosphere protection and ecological environment, ensure health, the whole society is all in concern energy-saving and emission-reduction.Scientist says understanding new forms of energy and correctly uses the energy, just means that understanding leads to following road.How effectively and reasonably distribute current natural resources and energy resources problem is day by day serious, while, health requirements comfortable in guarantee, utilize resource, reduce conventional energy resource consumption become people have to faced by problem.The develop rapidly of recent year market economy, the internal structure of enterprise, industry is in continuous change, and Market competition, by the impact of relation between market supply and demand, Chinese development of air conditioning industry is rapid, and Novel intelligent air-conditioning dominates the market, and its capacity is huge.And though existing air-conditioning is ever-changing in appearance, but still can not change refrigerating fluid and add the essential attribute that compressor completes refrigeration, heats, in addition existing air-conditioning power consumption is large, manufacturing cost is high, in installation and use procedure, also there are some problems, such as outer machine in use can shift a large amount of heats to environment.Do not meet the requirement of energy-saving and emission-reduction, environmental protection.

Described in comprehensive, it is high to there is production cost in existing household heating equipment and existing common air-conditioning, function singleness, the shortcomings such as the environmental pollution that during use, power consumption is large and certain.

Summary of the invention

Goal of the invention: in order to overcome the deficiencies in the prior art, the invention provides a kind of utilize solar energy while the heating installation based on twin-roll phase transformation radiator and the drying room of two kinds of heating sources are provided.

Technical scheme: for achieving the above object, technical scheme of the present invention is as follows:

A heating installation for twin-roll phase transformation radiator, comprises water circulation component and airflow circulating assembly, and wherein water circulation component comprises solar energy heating water tank, tank bracket, vacuum heat collection pipe, thermal source outlet pipe and thermal source return pipe, described airflow circulating assembly comprises supply fan, supply fan pipeline, three-way diverter valve, exhaust fan pipeline, exhaust fan, ventilation fan pipeline and ventilation fan, described supply fan pipeline and ventilation fan pipeline are connected on two ports of described three-way diverter valve, it is characterized in that: also comprise rolling stand assembly, circulating pump, pipeline water knockout drum, pipeline water collector and pressure regulating pump, described rolling stand assembly comprises support and fixing twin-roll phase transformation radiator on the bracket, described twin-roll phase transformation radiator comprises the interior cylinder fin and outer cylinder fin that are provided with phase-change material, interior cylinder heat pipe is also provided with in described in cylinder fin, outer cylinder heat pipe is also provided with in described outer cylinder fin, an air-flow buffer device is also provided with in described in cylinder fin, the air flow inlet of this air-flow buffer device is connected with described supply fan pipeline by described three-way diverter valve, the air stream outlet of air-flow buffer device is connected with described exhaust fan pipeline, described pipeline water knockout drum comprises a water inlet and two delivery ports, described thermal source outlet pipe is connected with the water inlet of pipeline water knockout drum by described circulating pump, two delivery ports of pipeline water knockout drum are connected to described interior cylinder heat pipe and the water inlet end of outer cylinder heat pipe respectively, described pipeline water collector comprises two water inlets and a delivery port, two water inlets of pipeline water collector are connected with the water side of interior cylinder heat pipe and outer cylinder heat pipe respectively, the delivery port of pipeline water collector is connected with described thermal source return pipe by described pressure regulating pump.

Be connected with first flow control valve at the water inlet end of described interior cylinder heat pipe, be connected with the first back-water valve (BWV) in the water side of interior cylinder heat pipe; Be connected with second control valve at the water inlet end of described outer cylinder heat pipe, the water side of cylinder heat pipe is connected with the second back-water valve (BWV) outside.

Described interior cylinder fin and outer cylinder fin all adopt curved panel to be made, in described, be provided with insulation sheet between cylinder fin and outer cylinder fin.

Described air-flow buffer device is pleiotaxy air-flow buffer device, pleiotaxy air-flow buffer device comprises hollow axis body and is arranged at least two porous plates on hollow shaft body length direction, between the cylindrical and the inwall of interior cylinder fin of the hollow axis body of described many wheel air-flow buffer devices, form gas channel.

Water circulation component of the present invention and air-flow recirculation assembly realize heat exchange by phase transformation twin-roll radiator, in heating process, supply fan pipeline by supply fan from extraneous (indoor) extracting air, cold and hot exchange in the cylindrical capsula interna passing into cylinder in radiator, gas after heat exchange, then through exhaust fan pipeline, the gas after heating is transported to indoor (room or parlor).

Heater temperature sensor, heater temperature detect switch (TDS) and auxiliary heater is provided with in described heat collection water tank; The signal output part of described heater temperature sensor is connected with the signal input part of heater temperature detect switch (TDS); The described signal output part of heater temperature detect switch (TDS) is connected with the signal input part of auxiliary heater.When running into rainy weather, when solar energy cannot provide enough heat heat supplies, can by the intelligent heat supply of auxiliary heater.

The inwall upper end, side of described solar energy heating water tank is provided with Water level controller; Described water inlet pipe is provided with self water feeding magnetic valve, and the signal output part of Water level controller is connected with the signal input part of self water feeding magnetic valve.When the water yield in heat collection water tank is below or above a certain setting value, can self water feeding or stopping water supply.

Also be provided with timer in the outer upper end in drying room, timer is connected with intelligent switch; The signal output part of described timer is connected with the signal input part of pipeline reversal valve.When system worked well, the positive terminal in both sides of pipeline reversal valve is long to be open, the bypass end of pipeline reversal valve is closed, during heating, timer according to setting every two hours transmission of signals to pipeline reversal valve, one of them port (air inlet port) now in the positive terminal of supply fan and pipeline reversal valve both sides is closed, the bypass end of ventilation fan and pipeline reversal valve is opened, realize intelligent switching, enter ventilation program, time of exchanging gas will continue ten minutes, after ten minutes, timer transmission of signal is to pipeline reversal valve, now again open the positive terminal inlet end mouth of supply fan and pipeline reversal valve, close the bypass end of ventilation fan and pipeline reversal valve, realize intelligent switching, recover heating program.During the work of this air-conditioning system, carry out intellectuality heating according to the above-mentioned cycle, wherein the time of concrete cycle period can be set by intelligent switch; In described choice for use, cylinder radiator completes indoor air-changing, mainly prevents from being brought in room or parlor by the cold air of outdoor in indoor air-changing process, thus affects indoor heating effect.

Heating installation of the present invention with solar energy heat collection water tank for thermal source, through water circulation system utilize the water route of pipeline water knockout drum and pipeline water collector divide to heat transfer principle, thermal source is passed to respectively the alloy heat pipe of interior cylinder and outer cylinder, by the conduction heat transfer effect of alloy heat-transfer pipe, activate phase-change material (superconducting fluid) in cylinder arcuated fin piece inner chamber and steam raising generation high-temperature gas, dispelled the heat to cylinder capsula interna center radiation by the intrados of interior cylinder arcuated fin piece; Dispelled the heat to space radiation in drying room cabinet by the extrados of the arcuated fin piece of outer cylinder, such design both can realize indoor heating, can provide again the heating source in drying room.

Beneficial effect

1, the heating installation of twin-roll phase transformation radiator of the present invention, system in normal conditions, interior cylinder and outer cylinder heat simultaneously, interior cylinder is by providing indirect thermal source for indoor heating with gas converting heat, outer cylinder provides direct heat source to heat for drying room by radiation, by the operation principle of pipeline water knockout drum and pipeline water collector, realize the heating agent that a water piping can provide the alloy heat pipe of interior cylinder and outer cylinder.By the duty of cylinder in intelligent switching control and outer cylinder flow control valve, interior cylinder and outer cylinder can individual event heating.Make full use of the natural resources, a solar energy heating water tank can provide the water circulation of multiple stage radiator cylinder to heat, system in normal conditions, the extra energy need not be consumed, easy to use, safe, economic environmental protection, compared with existing household heating equipment, under identical heating condition, can using water wisely more than 85 percent, using electricity wisely more than 50 percent, has energy-conserving and environment-protective and the advantage such as pollution-free.

2, twin-roll phase transformation radiator of the present invention is different from the radiation heat-dissipating radiating mode of conventional hot water radiation, and common radiator heat radiation adopts square box, realized to interior space radiations heat energy by a large amount of hot water circuit.Twin-roll phase transformation radiator of the present invention is cylinder type hollow cylindrical shell, the hollow arcuated fin piece of cylindrical shell adopts heat-conducting metal to make, in hollow arcuated fin piece, inject phase-change material (superconducting fluid) and arcuated fin piece be sealing without reveal, self-assembling formation vacuum state in fin, when hot water is by alloy heat pipe, phase-change material (superconducting fluid) in cylinder arcuated fin piece inner chamber is activated and gas evaporation produces high-temperature gas, dispelled the heat to air bag center radiation by interior cylinder arcuated fin piece intrados, by outer cylinder arcuated fin piece extrados to space radiation heat radiation in drying room cabinet.

3, compared with the superconducting liquid radiator of existing market, existing market superconducting liquid radiator can only complete indoor heating, does not have cabin ventilator.Twin-roll phase transformation radiator heating system of the present invention, can provide indoor heating, can provide again the heat energy in drying room, also by indoor air-changing.

Accompanying drawing explanation

Fig. 1 is the structural representation of heating installation of the present invention;

Fig. 2 is the structural representation of twin-roll heating installation of the present invention, and wherein 2a is appearance front view, 2b is longitudinal sectional view, 2c is transverse sectional view;

Fig. 3 is the structural representation that many wheel air-flow buffer devices of the present invention amplify;

Fig. 4 is drying room of the present invention schematic diagram, and wherein 4a is stereogram, 4b is side view;

Fig. 5 is the indoor arrangement structural map of heating installation of the present invention.

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention is further described

As shown in Figure 1,2 and 3, a kind of heating installation of twin-roll phase transformation radiator, comprises water circulation component, cylinder and bracket component, airflow circulating assembly and Based Intelligent Control assembly.Described water circulation component comprises solar energy heating water tank 1, tank bracket, vacuum heat collection pipe.Described heat collection water tank is fixedly connected on tank bracket; Described vacuum heat collection pipe is communicated with heat collection water tank by pipeline; Described heat collection water tank top is provided with water inlet pipe 5; The bottom of described heat collection water tank 1 is provided with bath water pipe 38.

Be provided with thermal source delivery port at a side end of solar energy heating water tank 1, be connected with thermal source outlet pipe 11, be provided with thermal source water return outlet in the end side of solar energy heating water tank 1, be connected with thermal source return pipe 12, the water side, side of described solar energy heating water tank connects the water intake end of circulating pump 26 by thermal source outlet pipe 11, the water intake end mouth of the water side connecting pipe water knockout drum 28 of circulating pump 26, described pipeline water knockout drum 28 is provided with two bypass end ports, wherein the first bypass end port connects the water intake end of first flow control valve 30 by the first waterpipe 29, first flow control valve 30 connects one end of interior cylinder heat pipe 22, the other end of interior cylinder heat pipe 22 connects the first back-water valve (BWV) 33, first bypass end port of the first back-water valve (BWV) 33 connecting pipe water collector 27, the water side of pipeline water collector 27 connects pressure regulating pump 14, pressure regulating pump selects miniature pressure regulating pump, miniature pressure regulating pump connects one end of thermal source return pipe 12, the other end of thermal source return pipe 12 connects solar energy heating water tank 1.

Second bypass end port of described pipeline water knockout drum 28 connects second control valve 32 water intake end by the second waterpipe 31, second control valve 32 connects one end of outer cylinder heat pipe 23, the other end of outer cylinder heat pipe 23 connects the second back-water valve (BWV) 35, second bypass end port of the second back-water valve (BWV) 35 connecting pipe water collector 27, the water side of pipeline water collector 27 connects pressure regulating pump 14, pressure regulating pump 14 connects one end of thermal source return pipe 12, and the other end of thermal source return pipe 12 connects solar energy heating water tank 1.

Supply fan pipeline 15 is provided with at a side end of described interior cylinder; One end of described supply fan pipeline 15 is connected with supply fan 13; The other end of described supply fan pipeline 15 is connected with the positive terminal port in the side of Intelligent three-way reversal valve 7; Exhaust fan pipeline 18 is provided with in the end side of described interior cylinder; The other end of described exhaust fan pipeline 18 is connected with exhaust fan 19; One end of described ventilation fan pipeline 17 is connected with the bypass end port of Intelligent three-way reversal valve 7, and the other end of ventilation fan pipeline 17 is connected with ventilation fan 16.

The interior cylinder of described twin-roll radiator is hollow cylinder, describedly in the hollow cylinder capsula interna of interior cylinder, be placed with three-wheel air-flow buffer device, and be parallelly placed in interior roll cylinder capsula interna, be used for blocking the air flowing to and, thus allow air temporarily slowly move in cylinder capsula interna, the gas forming curves passed in cylinder is flowed to, relatively extends flow process, reach the effect of abundant cold and hot exchange; The structure of described three-wheel air-flow buffer device is connected with three rounded porous plates by a hollow middle shaft and forms, and three porous plates are separately fixed at two ends and the stage casing of axis by axial (transverse direction); The horizontal carrier of three-wheel of described three-wheel air-flow buffer device is uniformly distributed mutually penetrating aperture, also as the passage of gas cold heat exchange between the outer wall and cylinder arcuated fin piece intrados of axis.

Described system is in heating process, and supply fan pipeline 15 passes through supply fan 13 from extraneous (indoor) extracting air.Pass into the interior cylinder of twin-roll radiator, the gas after heat exchange, then the gas after heating is transported to indoor (room or parlor in) by exhaust fan pipeline 18; Described radiator twin-roll 39 is fixedly connected on rolling stand 34; Described rolling stand 34 is fixed on the middle position in drying room 2; Described drying room 2 comprises upper plate, carrier frame, left plate, right plate, postnotum, thermal insulating door thermally insulated door Connecting groups synthesis drying room; The cabinet material in described drying room all adopts general steel plate to make, outer covering thermal insulation material.Describedly in simple and easy drying room 2, be provided with twin-roll phase transformation radiator 39; Described twin-roll phase transformation radiator 39 comprises interior cylinder and outer cylinder; Described high-efficiency insulated of being arranged on interior cylinder fin 20 outer wall doubles as the insulation sheet of outer cylinder body fin 24 inwall.

Described system is when using drying room, first second control valve 32 is opened by intelligent switch 6, hot water flows in outer cylinder heat pipe 23, by the heating agent effect of heat pipe, activate the phase-change material superconducting fluid 21 in outer cylinder fin 24 inner chamber and steam raising generation high-temperature gas, dispelled the heat to space radiation in drying room cabinet by the extrados of outer cylinder fin 24; The outer cylinder of radiator twin-roll is constantly to radiation distribute heat in drying room, maintain the environment of drying room high temperature low humidity, air carries out caloic exchange with room undergarment under the effect of radiator cylinder, is convenient to clothing moisture rapid evaporation, reaches the object of Quick clothes drying.The present invention utilizes the hot water of solar energy heating water tank 1 as the heating agent of the phase-change material superconducting fluid 21 of radiator cylinder, just can to activate the phase-change material superconducting fluid 21 in cylinder fin at 40 degree in the water temperature by alloy heat pipe, at this moment the exterior arc surface of outer cylinder radiator is to distribute heat in drying room, guarantee allows high temperature low moisture environments in drying room, radiator twin-roll drying room, its drying quantity is large, speed is fast, with low cost, operating cost is suitable for family expenses, be applicable to the large occasion of the cloth drying amount such as hotel, dormitory, barber shop equally uses.

Described intelligent switch 6 controls the duty of second control valve 32, if when needing to close or stop using drying room, close second control valve 32 by intelligent controlling device; The signal output part of described intelligent switch 6 is connected with the signal input part of second control valve 32.

The interior cylinder fin 20 of described twin-roll phase transformation radiator 39 and outer cylinder fin 24 all adopt heat-conducting metal to make; In the hollow arcuated fin piece of described interior cylinder and outer cylinder, be injected with phase-change material (superconducting fluid) and arcuated fin piece be sealing without revealing, self-assembling formation vacuum state in fin; The junction, end of the junction, lower end of described two arcuated fin pieces at interior cylinder and the arcuated fin piece of outer cylinder, is respectively equipped with alloy heat pipe.

Described many wheel air-flow buffer devices 25 are parallel to be placed in the hollow cylinder capsula interna of interior cylinder; One side end of described interior cylinder is connected with supply fan pipeline 15 one end, and the other end of supply fan pipeline 15 connects supply fan 13; The end side of described interior cylinder is connected with one end of exhaust fan pipeline 18, and the other end of exhaust fan pipeline 18 connects exhaust fan 19.

The outer upper end in described drying room 2 is provided with indoor temperature transmitter 37 and is connected with intelligent switch 6; The signal output part of described indoor temperature transmitter 37 is connected with the signal input part of intelligent switch 6; The signal output part of described intelligent switch 6 is connected with described first flow control valve 30; The flow setting value of described first flow control valve 30 include little, in, large three flow readings; Described intelligent switch 6 controls the duty of first flow control valve 30, when indoor temperature transmitter 37 measures indoor temperature below or above a certain setting value, is adjusted the flow of first flow control valve 30 by intelligent switch 6.

In twin-roll phase transformation radiator 39, one end of cylinder heat pipe 22 is provided with first flow control valve 30, and first flow control valve is by the first bypass end port of the first waterpipe 29 connecting pipe water knockout drum 28; The first bypass end port of the first back-water valve (BWV) 33, first back-water valve (BWV) connecting pipe water collector 27 is provided with at the other end of described interior cylinder heat pipe 22; One end of cylinder heat pipe 23 is provided with second control valve 32 outside, and second control valve is by the second bypass end port of the second waterpipe 31 connecting pipe water knockout drum 28; Be provided with the second bypass end port of the second back-water valve (BWV) 35, second back-water valve (BWV) 35 connecting pipe water collector 27 at the other end of described outer cylinder heat pipe 23, and described pipeline water knockout drum 28 is identical with the bypass end port number of pipeline water collector 27.

Described pipeline reversal valve is three-way pipeline, and can intelligence open and close in three passages any one; When two positive terminals of described pipeline reversal valve are opened simultaneously, bypass end is in closed condition, and when bypass end is in and opens, one of them port (air inlet port) in two positive terminals is in closed condition; The inlet end of described interior cylinder is connected with the positive terminal in pipeline reversal valve side; The positive terminal of opposite side of described pipeline reversal valve is connected with supply fan 13, and the outlet side of described interior cylinder is connected with exhaust fan pipeline 18, and exhaust fan pipeline 18 is connected with exhaust fan 19; The bypass end of described pipeline reversal valve is connected with ventilation fan pipeline 17, and ventilation fan pipeline 17 is connected with ventilation fan 16.

Describedly in heat collection water tank, be provided with heater temperature sensor 10, heater temperature detect switch (TDS) 9 and auxiliary heater 4; The signal output part of described heater temperature sensor 10 is connected with the signal input part of heater temperature detect switch (TDS) 9; The signal output part of described heater temperature detect switch (TDS) 9 is connected with the signal input part of auxiliary heater 4.When running into rainy weather, when solar energy cannot provide enough heat heat supplies, the intelligent heat supply of auxiliary heater 4 can be passed through.

The inwall upper end, side of described solar energy heating water tank 1 is provided with Water level controller 8; Described water inlet pipe 5 is provided with self water feeding magnetic valve 3, and the signal output part of Water level controller 8 is connected with the signal input part of self water feeding magnetic valve 3.When the water yield in heat collection water tank is below or above a certain setting value, can self water feeding or stopping water supply.

Outer upper end in drying room 2 is also provided with timer 36, and timer 36 is connected with intelligent switch 6; The signal output part of described timer 36 is connected with the signal input part of pipeline reversal valve 7.When system worked well, the positive terminal in both sides of pipeline reversal valve 7 is long to be open, the bypass end of pipeline reversal valve 7 is closed, during heating, timer 36 according to setting every two hours transmission of signals to pipeline reversal valve 7, one of them port (air inlet port) now in the positive terminal of supply fan 13 and pipeline reversal valve 7 both sides is closed, the bypass end port of ventilation fan 16 and pipeline reversal valve 7 is opened, realize intelligent switching, enter ventilation program, time of exchanging gas will continue ten minutes, after ten minutes, timer 36 transmission of signal is to pipeline reversal valve 7, now again open the positive terminal inlet end mouth of supply fan 13 and pipeline reversal valve 7, close the bypass end port of ventilation fan 16 and pipeline reversal valve 7, realize intelligent switching, recover heating program.During the work of this air-conditioning system, carry out intellectuality heating according to the above-mentioned cycle, wherein the time of concrete cycle period can be set by intelligent switch 6; In described choice for use, cylinder radiator completes indoor air-changing, mainly prevents from being brought in room or parlor by the cold air of outdoor in indoor air-changing process, thus affects indoor heating effect.

Main device distribution of the present invention as shown in Figure 5, supply fan 13 and exhaust fan 19 are arranged on the diverse location in indoor (room or parlor) respectively, and drying room 2 is placed on front balcony or selects to be placed on laundry according to objective condition.Supply fan pipeline 15, exhaust fan pipeline 18, ventilation fan pipeline 17 comprise all pipelines or enter wall coil road and be all chosen as pvc pipe, and body skin is coated with thermal insulation material, and preventing has cold and hot exchange with the external world.Described supply fan pipeline 15 port is provided with filter screen, object can be prevented to be sucked into, ensure that the security of system works; Described exhaust fan pipeline 18 port is provided with wind deflector, and what can adjust thermal current during use heats direction.

System in normal conditions, total electricity consumption 160W, wherein supply fan 35W, exhaust fan 45W, circulating pump 50W, booster pump 30W.Auxiliary heater power is 300W (using frequent when overcast and rainy or extreme weather) in addition, compared with existing household heating equipment, can using electricity wisely more than 50 percent, with the radiator device phase transformation of water-heating system, its water consumption is only equivalent to 1/5th of common radiator.Heat transfer water radiator must reach more than 60 degree just can pass temperature, twin-roll phase transformation radiator of the present invention only needs 40 degree, just can excite and pass temperature, compared with existing superconducting liquid radiator, when identical heating, existing superconducting liquid radiator can only provide indoor heating, and twin-roll phase transformation radiator of the present invention can provide indoor heating, the heat energy in drying room also can be provided, can also indoor air-changing be provided.

The heating system of twin-roll phase transformation radiator of the present invention, only needs a heat-collecting water tank of solar water heater, can use simultaneously organize heating installation more, does not affect normal bath water when using heating installation.The heating system of twin-roll phase transformation radiator of the present invention, air current circulation belongs to Natural Circulation, and heating effect is good, and structure is simple, takes full advantage of the energy of natural resources, meets energy-saving, emission-reducing, environment friendly requirement.

The above is only the preferred embodiment of the present invention; be noted that for those skilled in the art; under the premise without departing from the principles of the invention, can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (5)

1. the heating installation of a twin-roll phase transformation radiator, comprise water circulation component and airflow circulating assembly, wherein water circulation component comprises solar energy heating water tank (1), tank bracket, vacuum heat collection pipe, thermal source outlet pipe (11) and thermal source return pipe (12), described airflow circulating assembly comprises supply fan (13), supply fan pipeline (15), three-way diverter valve (7), exhaust fan pipeline (18), exhaust fan (19), ventilation fan pipeline (17) and ventilation fan (16), described supply fan pipeline (15) and ventilation fan pipeline (17) are connected on two ports of described three-way diverter valve (7), it is characterized in that: also comprise rolling stand assembly, circulating pump (26), pipeline water knockout drum (28), pipeline water collector (27) and pressure regulating pump (14), described rolling stand assembly comprises rolling stand (34) and is fixed on the twin-roll phase transformation radiator (39) on described rolling stand, described twin-roll phase transformation radiator (39) comprises the interior cylinder fin (20) and outer cylinder fin (24) that are provided with phase-change material, interior cylinder heat pipe (22) is also provided with in described in cylinder fin, outer cylinder heat pipe (23) is also provided with in described outer cylinder fin, an air-flow buffer device is also provided with in described in cylinder fin (20), the air flow inlet of this air-flow buffer device is connected with described supply fan pipeline (15) by described three-way diverter valve (7), the air stream outlet of air-flow buffer device is connected with described exhaust fan pipeline (18), described pipeline water knockout drum (28) comprises a water inlet and two delivery ports, described thermal source outlet pipe (11) is connected with the water inlet of pipeline water knockout drum by described circulating pump (26), two delivery ports of pipeline water knockout drum (28) are connected to described interior cylinder heat pipe (22) and the water inlet end of outer cylinder heat pipe (23) respectively, described pipeline water collector (27) comprises two water inlets and a delivery port, two water inlets of pipeline water collector (27) are connected with the water side of interior cylinder heat pipe (22) and outer cylinder heat pipe (23) respectively, the delivery port of pipeline water collector (27) is connected with described thermal source return pipe (12) by described pressure regulating pump.

2. heating installation according to claim 1, is characterized in that: be connected with first flow control valve (30) at the water inlet end of described interior cylinder heat pipe (22), be connected with the first back-water valve (BWV) (33) in the water side of interior cylinder heat pipe (22); Be connected with second control valve (32) at the water inlet end of described outer cylinder heat pipe (23), the water side of cylinder heat pipe (23) is connected with the second back-water valve (BWV) (35) outside.

3. heating installation according to claim 1, it is characterized in that: described interior cylinder fin (20) and outer cylinder fin (24) all adopt curved panel to be made, in described, be provided with insulation sheet (40) between cylinder fin (20) and outer cylinder fin (24).

4. heating installation according to claim 1, it is characterized in that: described air-flow buffer device is pleiotaxy air-flow buffer device (25), pleiotaxy air-flow buffer device comprises hollow axis body and is arranged at least two porous plates on hollow shaft body length direction, between the cylindrical and the inwall of interior cylinder fin of the hollow axis body of described pleiotaxy air-flow buffer device (25), form gas channel.

5. adopt a drying room for heating installation described in claim 1, it is characterized in that: described twin-roll phase transformation radiator (39) is fixed in drying room.